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Trawling effects on biogeochemical processes are mediated by fauna in high-energy biogenic-reef-inhabited coastal sediments
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Trawling effects on biogeochemical processes are mediated by fauna in high-energy biogenic-reef-inhabited coastal sediments
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Journal Article
Trawling effects on biogeochemical processes are mediated by fauna in high-energy biogenic-reef-inhabited coastal sediments
2022
Overview
Dynamic, sandy environments are generally less vulnerable
to mechanical stress compared to silty, low-energy habitats. Biogenic reef
communities, however, may provide an exception to this. This study explores
the physical, biological, and biogeochemical effects of bottom trawl fishing
on a coastal ecosystem dominated by the tube-building polychaete Lanice conchilega. Two
specific gear types, both used to exploit North Sea sole (Solea solea), were compared:
electric pulse trawls and tickler chain-rigged beam trawls. We detected a
∼1 cm bathymetric deepening after trawling associated with
significant losses in benthic chlorophyll a caused by both fishing gears.
Tickler chain trawls significantly reduced sediment oxygen consumption
(57 %), total organic matter mineralization (56 %), denitrification
(61 %), nitrification (60 %), and total benthos densities (52 %), while
pulse trawls had no statistically significant impact on these parameters.
Before trawling, significant relationships could be found between L. conchilega and very
fine sand fractions, oxygen and nitrate fluxes, macrobenthos densities, and
species richness; however, the trawl disturbances from both gears disrupted
these connections. Our results suggest a reduced average effect for pulse
compared to tickler chain beam trawls for several ecological and
biogeochemical characteristics, though their impact was still significant for
L. conchilega and associated species. This study also suggests that faunal-mediated
ecosystem functions in habitats dominated by L. conchilega may be sensitive to relatively
shallow sediment penetration from trawl gears and should be considered when
assessing habitat vulnerability.
